Searched refs:outputWidth (Results 1 – 9 of 9) sorted by relevance
76 int32_t outputWidth = useNchw ? outputShapeData[3] : outputShapeData[2]; in initialize() local78 calculateExplicitPaddingTransposeConv(outputWidth, strideWidth, filterWidth, in initialize()113 uint32_t outputWidth = getSizeOfDimension(outputShape, 2); \149 wOutput >= 0 && wOutput < static_cast<int32_t>(outputWidth)) { in transposeConvNhwc()151 uint32_t outputIndex = hOutput * outputWidth * outputDepth + in transposeConvNhwc()163 outputBase += outputHeight * outputWidth * outputDepth; in transposeConvNhwc()166 const uint32_t outerSize = numBatches * outputHeight * outputWidth; in transposeConvNhwc()235 wOutput >= 0 && wOutput < static_cast<int32_t>(outputWidth)) { in transposeConvNhwc()239 uint32_t outputIndex = hOutput * outputWidth * outputDepth + in transposeConvNhwc()254 outputBase += outputHeight * outputWidth * outputDepth; in transposeConvNhwc()[all …]
124 const int outputWidth = extOutputShape.Dims(2); in padGeneric() local133 outputData, padValue, leftBPadding * outputHeight * outputWidth * outputDepth); in padGeneric()139 leftHPadding * outputWidth * outputDepth); in padGeneric()147 for (int outW = leftWPadding; outW < outputWidth - rightWPadding; ++outW) { in padGeneric()171 outputWidth - rightWPadding, 0), in padGeneric()179 padValue, rightHPadding * outputWidth * outputDepth); in padGeneric()185 padValue, rightBPadding * outputHeight * outputWidth * outputDepth); in padGeneric()
195 auto outputWidth = context->getInputValue<int32_t>(kOutputWidthScalar); in prepare() local205 NN_RET_CHECK_GT(outputWidth, 0); in prepare()217 static_cast<uint32_t>(outputWidth)}; in prepare()220 static_cast<uint32_t>(outputWidth), inDepth}; in prepare()
46 uint32_t outputWidth = getSizeOfDimension(outputShape, 2); \66 for (uint32_t w = 0; w < outputWidth; w++) { in groupedConvFloat32()138 for (uint32_t w = 0; w < outputWidth; w++) { in groupedConvQuant8()243 for (uint32_t w = 0; w < outputWidth; w++) { in groupedConvQuant8PerChannel()
354 int32_t outputWidth = context->getInputValue<int32_t>(kOutputWidthScalar); in prepare() local366 NN_RET_CHECK_GT(outputWidth, 0); in prepare()382 static_cast<uint32_t>(outputWidth)}; in prepare()385 static_cast<uint32_t>(outputWidth), inDepth}; in prepare()
367 uint32_t outputWidth = getSizeOfDimension(outputShape, 2); in convQuant8PerChannelNhwc() local396 for (uint32_t w = 0; w < outputWidth; w++) { in convQuant8PerChannelNhwc()460 [[maybe_unused]] uint32_t outputWidth = getSizeOfDimension(outputShape, 2); in convQuant8PerChannelNhwc() local
293 uint32_t outputWidth = getSizeOfDimension(outputShape, 2); in depthwiseConvQuant8PerChannelNhwc() local323 for (uint32_t w = 0; w < outputWidth; w++) { in depthwiseConvQuant8PerChannelNhwc()
238 int outputWidth = inputWidth / subsample; in colorInscribedDataCircleFromYuvImage() local240 int w = outputWidth; in colorInscribedDataCircleFromYuvImage()551 int outputWidth = inputWidth / subsample; in colorSubSampleFromYuvImage() local578 int r = inscribedCircleRadius(outputWidth, outputHeight); in colorSubSampleFromYuvImage()582 if (outputWidth > outputHeight) { in colorSubSampleFromYuvImage()584 inscribedXMin = quantizeBy2(outputWidth / 2 - r); in colorSubSampleFromYuvImage()585 inscribedXMax = quantizeBy2(outputWidth / 2 + r); in colorSubSampleFromYuvImage()590 inscribedXMax = outputWidth; in colorSubSampleFromYuvImage()596 outputPixelStride = outputWidth; in colorSubSampleFromYuvImage()597 len = outputWidth * outputHeight; in colorSubSampleFromYuvImage()[all …]
META-INF/ META-INF/MANIFEST.MF org/ org/jf/ org/ ...